Refraction and Magnification of a Coin in a Glass Cylinder

In summary, the penny appears to be stretched out when viewed from directly above because the rays appear to be coming from beside the coin.
  • #1
Speedking96
104
0

Homework Statement



A penny is placed at the bottom of a glass cylinder that is 30 cm in height. If the cyclinder is filled to 2/5 its volume:

How much closer to an eye does the coin appear when viewed from directly above?


2. The attempt at a solution

I don't quite know how to approach this problem but since we are studying refraction, I'm guessing it has to do with it.

n water = 1.33

Can that be considered the "magnification"?

12 cm / 1.33 = 9 cm

So, it appears to be 3 cm above the bottom surface?
 
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  • #2
Speedking96 said:

Homework Statement



A penny is placed at the bottom of a glass cylinder that is 30 cm in height. If the cyclinder is filled to 2/5 its volume:

How much closer to an eye does the coin appear when viewed from directly above?


2. The attempt at a solution

I don't quite know how to approach this problem but since we are studying refraction, I'm guessing it has to do with it.

n water = 1.33

Can that be considered the "magnification"?
No.

Since you are studying refraction, you should know a law that tells you how light-rays bend when they cross a surface.

Sketch the situation (bottom of glass, coin on the bottom, water surface above...)
Then sketch in two light rays coming from the coin, and headed for different points on the surface ... at the surface they refract differently: draw in the refracted rays.

Now imagine there is an eyeball looking down from above - as far as the ye is concerned, where do those rays appear to come from?
 
  • #3
The rays appear to be coming from beside the coin. The coin seem stretched out.
Are they looking for a numerical answer?
 
  • #4
Speedking96 said:
The rays appear to be coming from beside the coin. The coin seem stretched out.
Reality check - put a coin in a glass of water and look at it. Does it appear stretched out?

Try this: draw a dotted line through the center of the coin and perpendicular to the water surface.
Make a small angle to this line, from where it touches the coin - draw a ray for that angle.
Where the ray hits the water surface, draw in a dotted line showing the normal.
Will the ray refract away from or towards the normal (going from water to air)?

Draw in the refracted ray.
Repeat for the same small angle on the other side of the central line.

Or see:
http://www.physicstutorials.org/home/optics/refraction-of-light/apparent-depth-real-depth
 
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  • #5
I've figured it out. Thank you for the link.
 
  • #6
Well done.
 

Related to Refraction and Magnification of a Coin in a Glass Cylinder

1. What is refraction?

Refraction is the phenomenon of light bending as it passes through a medium with a different optical density. This can occur when light travels from air to water or from one type of glass to another.

2. How does refraction affect vision?

Refraction plays a crucial role in our vision. The cornea and lens of our eye are designed to refract light, allowing us to focus images onto the retina. Any abnormalities in the shape or curvature of these structures can result in vision problems such as nearsightedness or farsightedness.

3. What is the refractive index?

The refractive index is a measure of how much a material can bend light. It is defined as the ratio of the speed of light in a vacuum to the speed of light in the material. It is often represented by the symbol "n" and is specific to each material.

4. What factors can influence refraction?

Several factors can affect the amount of refraction that occurs, including the angle at which light enters the medium, the wavelength of the light, and the refractive index of the medium. The temperature and pressure of the medium can also have an impact on refraction.

5. What are some real-life applications of refraction?

Refraction has many practical applications, including the creation of eyeglasses, telescopes, and microscopes. It is also used in various industries such as photography, telecommunications, and medicine. Refraction is also the basis for optical illusions, such as mirages and the bending of a straw in a glass of water.

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